## AP/IB/Honors Physics Activity Browse

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## Grade Level: College Lower (13-14)

showing only*College Lower (13-14) > Introductory Level*Show all Grade Level: College Lower (13-14)

# Subject: Physics

- 5 matches General/Other
- Astronomy 13 matches
- Oscillations & Waves 2 matches

# Grade Level: College Lower (13-14) Show all Grade Level: College Lower (13-14)

## College Lower (13-14) > Introductory Level

20 matches# Resource Type: Activities

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Results 1 - 20 of **20 matches**

Being P-Waves and S-Waves part of Starting Point-Teaching Entry Level Geoscience:Role Playing:Examples

Teach students about P-waves and S-waves by having them model them with their own bodies. -

Waves Through Earth: Interactive Online Mac and PC part of Starting Point-Teaching Entry Level Geoscience:Mathematical and Statistical Models:Mathematical and Statistical Models Examples

Students vary the seismic P and S wave velocity through each of four concentric regions of Earth and match "data" for travel times vs. angular distance around Earth's surface from the source to ...

Mass Balance Model part of Starting Point-Teaching Entry Level Geoscience:Mathematical and Statistical Models:Mathematical and Statistical Models Examples

Students are introduced to the concept of mass balance, flow rates, and equilibrium using an online interactive water bucket model. -

Sun Spot Analysis part of Starting Point-Teaching Entry Level Geoscience:Teaching with Data:Examples

Introductory students use Excel to graph monthly mean Greenwich sunspot numbers from 1749 to 2004 and perform a spectral analysis of the data using the free software program "Spectra". -

Slinky and Waves part of Starting Point-Teaching Entry Level Geoscience:Interactive Lecture Demonstrations:Examples

Use a Slinky to show:P and S waves, Wave reflection, and Standing waves in interactive lecture demonstration. -

Pressure Melting of Ice: While-U-Wait part of Starting Point-Teaching Entry Level Geoscience:Interactive Lecture Demonstrations:Examples

In this demonstration, students get to witness pressure melting and regelation first-hand. A weight is suspended via a thin wire over an ice cube. Over the course of the course of the demonstration, the wire ...

Sun Path: Interactive On-line Mac or PC part of Starting Point-Teaching Entry Level Geoscience:Mathematical and Statistical Models:Mathematical and Statistical Models Examples

Students use SunPath in the yearly mode to investigate seasonal changes in sunrise, sunset, length of day and sun altitude at their own latitude. JAVA activity for Mac or PC. -

Reflection and Absorption of Light part of Starting Point-Teaching Entry Level Geoscience:Teaching with Data:Examples

Students use a microcomputer connected to a light sensor and temperature probe to explore the reflection and absorption of light. -

Order It Up! part of Starting Point-Teaching Entry Level Geoscience:Interactive Lectures:Examples

A think-pair-share activity which involves putting solar system bodies in order based on various statistics: escape velocity, distance from the sun, mass, etc. -

ConcepTest: Jovian Planet Characteristics part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

The characteristics of four planets are listed below. Which planet is most likely to be classified as Jovian? a. Mainly rocky, volcanism, low gravity. b. Mainly rocky, no volcanism, high gravity. c. Mainly gaseous, ...

ConcepTest: Eccentricity and Temperature Distribution part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

Mars has a more eccentric orbit of the Sun than Earth. Mars is 20% closer to the Sun during its winter than it is during its summer. How would temperature distributions on Earth be affected if we had a similarly ...

ConcepTest: Rotation part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

It takes 24 hours—one day—for one complete rotation of Earth. How long would it take for the Sun to strike every location on the equator if Earth did not rotate on its axis? a. never b. one season c. 24 hours ...

ConcepTest: The Moons Orbit part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

Does the Moon have a geocentric or heliocentric type orbit? a. geocentric. b. heliocentric. c. neither.

ConcepTest: Sun Spot Activity part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

Sun spots, flares and other emissions from the Sun's surface can have a negative impact on electrical systems on Earth. What would be the implications for this type of solar activity if the Sun did not ...

ConcepTest: Eccentricity and Seasons part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

Mars has a more eccentric orbit of the Sun than Earth. Mars is 20% closer to the Sun during winter in its Northern hemisphere than it is during its summer. What would be the implications for the seasons on Earth if ...

ConcepTest: Relative Planet Ages part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

How old are other planets in the Universe in comparison to the planets in our Solar System? a. Other planets are older than the planets in our Solar System. b. Other planets are younger than the planets in our ...

ConcepTest: Viscosity part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

Place these materials (maple syrup, milk, peanut butter, frozen yogurt) in the correct position for their relative viscosity. What is at position #B? a. frozen yogurt b. milk c. peanut butter d. maple syrup

ConcepTest: Tidal Ranges 1 part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

If the moon were farther away from the Earth: a. Tidal ranges would be larger b. Tidal ranges would be smaller c. There would no change in tidal ranges

ConcepTest: Tidal Ranges 2 part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

If the moon were larger: a. Tidal ranges would be larger b. Tidal ranges would be smaller c. There would no change in tidal ranges.

ConcepTest: Axis Tilt part of Starting Point-Teaching Entry Level Geoscience:ConcepTests:Examples

Mars axis is tilted at approximately the same angle as Earth's axis. This should result in a. days of similar length. b. similar sequences of seasons. c. similar temperatures on the planet's surface. d. ...